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Community Ecology Gary G. Mittelbach Michigan State University Sinauer Associates, Inc. Publishers Sunderland, Massachusetts U.S.A. © 2012 Sinauer Associates, Inc. This material cannot be copied, reproduced, manufactured or disseminated in any form without express written permission from the publisher. 00_Mittelbach1e_FM.indd iii 4/5/12 10:00 AM Brief Table of Contents 1 Community Ecology’s Roots 1 PART I The Big Picture: Patterns, Causes, and Consequences of Biodiversity 2 Patterns of Biological Diversity 13 3 Biodiversity and Ecosystem Functioning 41 PART II The Nitty-Gritty: Species Interactions in Simple Modules 4 5 6 7 8 9 Population Growth and Density Dependence 65 The Fundamentals of Predator–Prey Interactions 83 Selective Predators and Responsive Prey 103 Interspecific Competition: Simple Theory 125 Competition in Nature: Empirical Patterns and Tests of Theory 149 Beneficial Interactions in Communities: Mutualism and Facilitation 175 PART III Putting the Pieces Together: Food Webs and Ecological Networks 10 Species Interactions in Ecological Networks 197 11 Food Chains and Food Webs: Controlling Factors and Cascading Effects 223 PART IV Spatial Ecology: Metapopulations and Metacommunities 12 Patchy Environments, Metapopulations, and Fugitive Species 251 13 Metacommunities and the Neutral Theory 267 PART V Species in Changing Environments: Ecology and Evolution 14 Species Coexistence in Variable Environments 289 15 Evolutionary Community Ecology 317 16 Some Concluding Remarks and a Look Ahead 339 © 2012 Sinauer Associates, Inc. This material cannot be copied, reproduced, manufactured or disseminated in any form without express written permission from the publisher. 00_Mittelbach1e_FM.indd vi 4/5/12 10:00 AM Table of Contents Preface xi Acknowledgments xiv CHAPTER 1 Community Ecology’s Roots 1 What Is a Community? 2 The Ecological Niche 4 Whither Competition Theory? 7 New Directions 8 Area and species richness 31 The distribution of species abundance 35 Local–regional diversity relationships 38 Conclusion 39 Summary 39 CHAPTER 3 Biodiversity and Ecosystem Functioning 41 Diversity and Productivity 43 PART I THE BIG PICTURE: Patterns, Causes, and Consequences of Biodiversity CHAPTER 2 Patterns of Biological Diversity 13 Assessing Species Diversity in Space 15 Explaining the Latitudinal Diversity Gradient 18 A null model: Geometric constraints and the “mid-domain effect” 18 Ecological hypotheses: Climate and species richness 20 Historical hypotheses: The time-and-area hypothesis and the concept of tropical niche conservatism 24 Evolutionary hypotheses: Do rates of diversification differ across latitude? 26 Patterns of Biological Diversity at Different Spatial Scales 29 Productivity and species richness 29 Mechanisms underlying the diversity–productivity relationship 46 Diversity, Nutrient Cycling, and Nutrient Retention 50 Diversity and Stability 52 Diversity and Invasiblity 54 Unanswered Questions 57 Conclusion 61 Summary 62 PART II THE NITTY-GRITTY: Species Interactions in Simple Modules CHAPTER 4 Population Growth and Density Dependence 65 Exponential Population Growth 66 Logistic Population Growth 68 © 2012 Sinauer Associates, Inc. This material cannot be copied, reproduced, manufactured or disseminated in any form without express written permission from the publisher. 00_Mittelbach1e_FM.indd vii 4/5/12 10:00 AM viii CONTENTS The Debate over Density Dependence 70 Evidence for density dependence in nature 72 Positive density dependence and Allee effects 75 The functional form of density dependence 76 Compensatory Dynamics in Communities 77 Conclusion 80 Summary 80 CHAPTER 5 The Fundamentals of Predator–Prey Interactions 83 Predator Functional Responses 85 The Lotka–Volterra Model 88 Isocline analysis 89 Adding more realism to the Lotka–Volterra model 91 The Rosenzweig–MacArthur Model 92 The suppression–stability trade-off 94 Density-dependent predators 95 Resource Harvesting 96 Summary 101 CHAPTER 6 Selective Predators and Responsive Prey 103 Predator Preference 104 Optimal foraging theory leads to a model of predator diet choice 105 Consequences of selective predation for species coexistence 112 The Nonconsumptive Effects of Predators 113 Habitat shifts 114 Life history evolution 115 Activity levels 117 Morphology 118 The Relative Importance of Consumptive and Nonconsumptive Effects 121 Looking Ahead 122 Summary 122 CHAPTER 7 Interspecific Competition: Simple Theory 125 Defining Interspecific Competition 126 The Lotka–Volterra Competition Model 126 Another way to look at the L–V competition model 130 Modifications to the L–V competition model 130 Consumer–Resource Models of Competition 132 What are resources? 132 One consumer and one resource: The concept of R* 133 Two consumers competing for one resource 134 Coexistence on a single, fluctuating resource 135 Competition for Multiple Resources 136 Competition for two essential resources 137 Competition for two substitutable resources 140 Spatial heterogeneity and the coexistence of multiple consumers 141 Apparent Competition 142 Conclusion 145 Summary 146 CHAPTER 8 Competition in Nature: Empirical Patterns and Tests of Theory 149 Testing the Predictions of Competition Theory 150 Some general comments about testing theory 153 Observational Approaches to Studying Competition in Nature 155 Experimental Approaches to Studying Competition in Nature 162 Factors affecting experimental design 163 Designing competition experiments 164 Experimental Evidence for the Importance of Competition in Nature 167 Interspecific competition, climate, and species distributions 169 The interaction between competition and mortality 170 Summary 172 © 2012 Sinauer Associates, Inc. This material cannot be copied, reproduced, manufactured or disseminated in any form without express written permission from the publisher. 00_Mittelbach1e_FM.indd viii 4/5/12 10:00 AM CONTENTS ix CHAPTER 9 CHAPTER 11 Beneficial Interactions in Communities: Mutualism and Facilitation 175 Food Chains and Food Webs: Controlling Factors and Cascading Effects 223 Mutualism and Facilitation: Definitions 176 A Brief Look at the Evolution of Mutualism and Facilitation 178 Incorporating Beneficial Interactions into Community Theory 180 Mutualisms may be context-dependent 182 Interactions may change from positive to negative 184 Combining positive and negative effects 187 The stress gradient hypothesis for plant facilitation 189 Looking Ahead 192 Summary 193 PART III PUTTING THE PIECES TOGETHER: Food Webs and Ecological Networks CHAPTER 10 Species Interactions in Ecological Networks 197 Food Webs 199 Connectedness webs 199 Energy flow webs 201 Functional webs 203 Keystone Species 205 Body Size, Foraging Models, and Food Web Structure 208 Indirect Effects 212 Other Types of Ecological Networks 214 Mutualistic networks 214 Parasites and parasitoids 218 Complexity and Stability 219 Conclusion 220 Summary 221 Why is the World Green? 223 What Determines Abundance at Different Trophic Levels? 225 A simple thought experiment illustrates the duality of top-down and bottom-up control 227 Some conclusions 228 Testing the Predictions 228 Effects of productivity on trophic-level abundances 230 Trophic cascades and the relative importance of predator and resource limitation 237 What determines food chain length? 244 Conclusion 247 Summary 247 PART IV SPATIAL ECOLOGY: Metapopulations and Metacommunities CHAPTER 12 Patchy Environments, Metapopulations, and Fugitive Species 251 Metapopulations 251 The classic Levins metapopulation model 252 Implications of the metapopulation model for conservation biology 253 Parallels between metapopulation models and epidemiology 257 Empirical examples of metapopulation dynamics 257 Fugitive Species: Competition and Coexistence in a Patchy Environment 260 The competition/colonization trade-off 260 Consequences of patch heterogeneity 263 Conclusion 265 Summary 265 © 2012 Sinauer Associates, Inc. This material cannot be copied, reproduced, manufactured or disseminated in any form without express written permission from the publisher. 00_Mittelbach1e_FM.indd ix 4/5/12 10:00 AM x CONTENTS CHAPTER 13 CHAPTER 15 Metacommunities and the Neutral Theory 267 Evolutionary Community Ecology 317 Metacommunities in Heterogeneous Environments 269 The mass effects perspective: Diversity patterns in source–sink metacommunities 269 The species-sorting perspective and the formation of complex adaptive systems 273 Measuring dispersal in metacommunities 275 The Neutral Perspective 276 Assumptions of the neutral theory 278 Testing the predictions of the neutral theory 279 The value of the neutral theory 282 Conclusion 283 Summary 283 PART V SPECIES IN CHANGING ENVIRONMENTS: Ecology and Evolution Rapid Evolution and Eco-Evolutionary Dynamics 318 Rapid evolution and its consequences for population dynamics and species interactions 318 Eco-evolutionary feedbacks in nature 320 Quantifying the ecological consequences of rapid evolution 322 Community Phylogenetics 324 Are closely related species stronger competitors? 327 The phylogenetic structure of communities 327 Phylogenetic niche conservatism 331 Adaptive Radiation, Niche Filling, and Community Assembly 333 Conclusion 336 Summary 337 CHAPTER 16 Some Concluding Remarks and a Look Ahead 339 CHAPTER 14 Species Coexistence in Variable Environments 289 Properties of Species Coexistence Mechanisms 290 Fluctuation-Dependent Mechanisms of Species Coexistence 291 The storage effect 292 The intermediate disturbance hypothesis 297 Niche-Based and Neutral Processes in Communities 299 Regime Shifts and Alternative Stable States 304 Conclusion 313 Summary 314 Looking Ahead: Issues to Ponder 341 Metacommunities and the integration of local and regional processes 341 Drivers of regional biodiversity 341 Niche-based and neutral dynamics 342 Pathogens, parasites, and natural enemies 342 Biodiversity and ecosystem functioning 343 Eco-evolutionary feedbacks and community phylogenetics 344 Climate change and its effects on species distributions and species interactions 344 In Closing, I’d Like to Say… 345 Literature Cited 347 Author Index 385 Subject Index 391 © 2012 Sinauer Associates, Inc. This material cannot be copied, reproduced, manufactured or disseminated in any form without express written permission from the publisher. 00_Mittelbach1e_FM.indd x 4/5/12 10:00 AM